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  • BETE Nozzle

    Quality. Research. Innovation.

    Bete

  • Bete nozzles
  • Bete Nozzles

    We are well known for our ability to find creative solutions to difficult spraying challenges

    Bete

Bete nozzles

WTZ Right Angle, Full Cone, and Clog Resistant Nozzles

/WTZ Right Angle, Full Cone, and Clog Resistant Nozzles

WTZ Right Angle, Full Cone, and Clog Resistant Nozzles

WTZ nozzles

  • No internal parts, clog-resistant
  • Uniform distribution
  • Male and female connections
  • Large free passage
Common Materials:
303, 316, Brass, Duplex 2205, Nickel Alloy 625, Nickel Alloy 825, Nickel Alloy C-22, Nickel Alloy C-276, PVC

WTZ Nozzles Right Angle, Full Cone, and Clog Resistant Nozzles

Whirl Spray Nozzles

Whirl nozzles generate a whirling motion of the liquid. Axial whirl nozzles produce the swirling motion with an internal vane or disc. Tangential whirl nozzles feature a slight angle on inlet passageway into the cavity of the nozzle. The swirling effect within the body cavity creates the whirling motion.

  • The Axial Whirl full cone nozzle style is ideal for an even distribution over a packed bed.
  • The Axial Whirl full cone nozzles is used for rain simulation and foam control applications.
  • Spillback nozzles provides a 10:1 turndown ratio with minimal change in drop size.

Design characteristics

  • Axial
    • Full Cone
      • Even distribution of the droplets.
      • Internal Whirl vane/disc to help create the spray pattern.
      • Inlet inline with outlet.
    • Hollow Cone
      • Internal Whirl vane/disc to help create the spray pattern.
      • Inlet inline with outlet.
  • Tangential
    • Full Cone
      • Even distribution of the droplets.
      • Slight angle on inlet passageway into the cavity of the nozzle to create the swirling effect within the body cavity, thus resulting in the creation of the spray pattern.
      • Liquid inlet 90 degrees from liquid outlet.
      • Fins on one side of the body cavity to disrupt the swirling action to help direct droplets to the center of the spray pattern.
    • Hollow Cone
      • Slight angle on inlet passageway into the cavity of the nozzle to create the swirling effect within the body cavity thus resulting in the creation of the spray pattern.
      • Liquid inlet 90 degrees from liquid outlet.